Electric scale.



H. RICHARDSON. ELECTRIC SCALE. APPLICATION FILED NOV. 27, 1909.

1,066,656. Patented July 8, 1913.

` 3 SHEETS-SHEET 1.

H. RICHARDSON.

ELECTRIC SCALE.

APPLIGATION FILED Nov. 27.1909.

Patented July 8, 1913.

3 SHEETS-SHEET 2.

H. RICHARDSON.

ELECTRIC SCALE.

APPLICATION FILED Nov. 27, 1909.

Patented July 8, 1913.

3 SHEETS-SHEET 3.

STATES T' OFFCE.

HENRY nronannsori, or Passare; rfi-mr'v JERSEY.

nLEcmme semen..

Application led November 27, 1909,

To all whom t may conce/mt:

Be it knowni that I, HENRY RICHARDSON, a. subject of, the King of Great Britain, residing at Fassaiqin the county of Passaic and State of New Jersey, have invented certain new. and useful- Improvements in Electric Scales, ofwhich the followingV is a specification.

My present invention relates to improve ments in weighing machines, and-it has for its object primarily to provide means, prefL erably electro-magnetic, for controlling the operation of the feeding. and discharging devices-for the weighA hopper whereby said devices are mutually dependent upon one another and both of said devices vare dependent upon the weigh-hopper, the feed of material to the weigh hopper being interrupted and the weighed material therein-being discharged. automatically upon A'the settling or poising ofthe weigh beam, the feeding device being held from operation until the discharge door1 of the weigh hopper has been closed.

v Another object of the invention is to-pruvide full-flow and dribble feed devices which are successively or alternately rendered 0per-ative by the movement of the weigh beam, both of said feeds being preferably operated from. a single shaft er equivalent device which is shifted automatically from one feed device to the other` as the Weigh beam descends or rises.

Further objects ofthe invention. are to provide a switch whereby the feeding and discharging devices are rendered mutually dependent for operation one upon the other and also a safety device for lpreventing premature discharge of the contents of the weigh hopper should the current supply for the controlling circuit fail.

To these and other ends, the invention consists in certain improvements, and combinations and arrangements of parts, all as will be hereinafter more fully described, the novel features being pointed .out particularly in the claims at the end of the specification. v

In the accompanying drawing: Figure l is a diagrammatic view of a weighing machine equipped with controllino` means for the feeding and discharging Ccvices; Fig.

Specication of Letters Patent.

Patenteaauiy 8;, 1913'.

Serial No, 530,237.

2 represents a transverse sectionthrough the feed' chute and vibratory shaft-the section being represented by the line 2 2 of Fig. 1;t Fig. 3 is aV detail perspective view ofE as portion of? the vibratory shaft; Fi L isa diagrammatic view showing a plurality of. weighing machines connected by a controlling, circuit whereby simultaneous discharge of''all! the machines may be effected; Fig. 5-is: a diagrammatic view' of a Weighing machine provided with controlling means for the feedingf and discharging devices, theweighing maehine'being equipped with fullLflow and' dribble feeding. mechanismwhich` are alternatelyioperative and are controlled! automatically by the settling of the weigh hopper; Fig; 6 is a detailV view of. the member which controls the change from fullfow? to dribble feed, and vice versa; and Fig. 7 represents anend View of the doublefeed chutes.`

Similar'V partsare designated by thessame reference characters inthe several views.

ln the accompanying drawing, I' have shownieertainrembodiments of my invention as applied: to a weighingmachine of one particular type. IIt will be understood, however, thatf the invention is not necessarily limited in itsA application to Weighing machines off the particular type shown, nor is the invention 1imitedto the specific construction and arrangement of the elements and the connections thatrcontrol the opera tion `ofl the feeding and load discharging devices, as certain modifications and changes may be made in the detail construction thereof-in order. that the invention may be applied to-the best advantages according to the circumstances and particular case.

In the present instance, l designates generally the weighhopper supported by a weigh beam 2 and the latter in turn is provided with. a. suitable counterpoise 3. The weigh hopper Ais provided with a door or other appropriate closure which is closed during the Weighing opera-tion and is opened after t-he weighing has been completed in order todischarge the weighed `contents of the weigh hopper.- A door 4 is shown in the present instance which is pivotcd at 5 and is provided with two arms and T, the arm requirements of each 6 carrying a counterweight 8 which serves to close the door after the contents have been discharged from the hopper. The arm 7 is rigidly attached to and movable'with the door 4.- and provides an armature for an electro-magnetic device which controls the opening of the door. This electro-magnetic door'retaining device in the present instance is shown as a magnet or solenoid 9Y which may be secured to the adjacent side of the hopper and when the door is in yclosed position, the armature upon the arm 7 will be in cooperative relation with the magnet so that while this magnet is energized, the door will be held in closed position and when the magnet is denergized by an interruption, the door may open.. If so desired, a safety device may be provided for preventing premature opening of the door due to a failure of current. f In the present instance, I have shown a detent 10 which is pivoted to the side of the hopper and has its free end arranged adjacent to the arm 7. This detent also provides an armature for a magnet or solenoid 11, the latter being connected in the main line circuit so that under normal conditions the detent 10 will be attracted by its magnet and thereby held clear of the arm 7. A projection 12 is shown which may 'serve to position the detent so as to lock thearm 7 immediately upon an interruption or failure of the current. f

The material is fed to the weigh hopper through a chute 13 which is preferably inclined downwardly toward the weigh hopper and is so supported that it may be vibrated in order to effect a i'low of material therethrough during the filling of the Weigh hopper, and its inclination with respect to the character of the material being handled is preferably such that while the chute is at rest the flow of material therein wil-l cease. Any suitable means may be provided for supporting the chute to permit vibration thereof. In the present instance, the,chute is shown hung by links 14. According to the present invention, I provide a feeding device which will be held from operation while the hopper door is open and in the present instance, it embodies an electric motor 15 which is operatively connected to a vibratory shaft 16, the latter being preferably connected to the motor shaft by a flexible connection 17 and equipped at its free end with an eccentricor equivalent device 18 the center of gravity of which is eccentric to the geometrical axis of the shaft whereby rotation of the shaft at a relatively high speed will cause the shaft to vibrate at high frequency. The shaft 13 is connected to the feed chute through the medium. ofia bearing 19 and the vibratory shaft acts upon this bearing to impart to th feed chute vibratory movements of degre suiiicient to produce a flow of material through the chute and into the weigh hopper While the motor is operating.

In order to automatically interrupt the feed of material to the weigh hopper and to open the door of the Weigh hopper and discharge its contents when the weigh hopper has received a properly weighed charge of material,y I connect the electric motor for the feed device and the magnet or solenoid for the hopper door in series and interpose in such circuit a circuitcontrolling device which is operated by the weigh beam. Different forms of electric switches may be used for this purpose. In order, however, to avoid any inaccuracy in the weighing operation, I. preferably provide a mercury contact switch which will not offer any material resistance to the movement of the weigh beam. The mercury switch shown in the present instance consists of a mercury containing cup 20 and a contact 21, the contact being preferably carried bythe weigh beam and when the weigh hopper descends,

,A the circuit through Ithe mercury switch will be broken, thereby causing 4interruption in the operation of the motor for the feed device and Vdeenergizing of the magnet which -holds the hopper door in closed position. As an example of a circuit for connecting the electrical controlling mechanism, 22 may represent the source of current supply. A wire 23 leads from one pole of the source to one terminal of the motor, a wire 24 leads from the other terminal of the motor to the mercury containing cup 20, a wire 25 leads from the contact 21 on the weigh ybeam to one terminal of t-he magnet or solenoid 9, and a return wire 26 leads from the other terminal of the magnet or solenoid 9 to the source of current supply. The magnet or solenoid 11 for preventing premature opening of the hopper door in case of failure in the current supply is not controlled by the mercury switch of the weigh beam but is connected by the wires 2,7 and 28 directly to the main wires which supply current to the machine.

In order to prevent the motor from starting before the hopper door has been completely closed, I preferably interpose a Vswitch in circuit with the motor and the r-,osegelss carrying the' counterweight will be down, the contact 21 being immersed in ythe mercury contained in the cup 20. A circuit will then be complete, starting With the source of supply 22 andpassi-ng through the conductor 23 to; the motor, thence from the motor through the wire 24; to the mercury switch, passing from' theL mercury switch by the wire 25: to the] magnet or solenoid 9 and from the' magnet or solenoid 9 through the conductor 26, through the interposed switch member 29 and contact 31 back to the source of supply. Whenthe controlling circuit is in this condition, the magnety or solenoid 9 will be energized and will! thereby retain the discharge door of the hopper in closed position and the motor 15. will operate toV feed material through the chute 13 and into the weigh hopper. When, however, a suificient charge of material has been introduced into the weigh hopper to cause the latter to descend orto poise the weigh beam that end of the latter carrying the contact l21 will rise, this contact leaving the mercury in the cup4 204 and thereby breaking the circuit both for the motor and for the magnet or solenoid.A The motor will immediately stop thereby discontinuing the feed of material to the weigh hopper and the denergizing of the magnet or solenoid 9 will permit the hopper door to open-amd discharge the contents thereof. The opening movement of the hopper door will operate through the link 3() to also open the motor and magnet. circuit through the switch member 29 and A Contact 31 and' owing to the breaking of the circuit by thisv switch which is controlled byl the, hopper door-,- the motor cannot again operate until after the hopper door has been completely closed, thereby avoiding waste of materi-al. After' a certain amount of material has discharged from the weigh hopper, that end- Of the Weigh beam carrying the contact 2l will again descend so as to` again establish the circuit through the mercury switch but, as before stated, the circuit for the motor and the hopper door retaining magnet is not closed until the hopper door has been completely closed whereupon the circuit is established through the motor and the hopper retaining door to hold said door in closed position and to renew the feeding operation through the chute 13 owing to the running of the motor; As the magnet 11 which controls the safety detent is connected directly to the source ofcurrent supply, this magnet will remain energized to hold the detent in an inoperative position until the source of current supply fails whereupon it will release the detent and the latter will lock the hopper door from opening until the source of current supply is restablished, the detent being then automatically retracted so that the weighing machine may resume its operation;

In some cases, it may be desirable or necessary that a plurality of weighing machines-should be so controlled that they may operate to simultaneously discharge their loads, that is, an equal number of loads is discharged with certainty from each weighing machine of the series. In Fig. 4, I have shown as an example, a plurality of Weighing machines of the same type disclosed in Fig. 1, and these Weighing machines are electrically controlled so as t0 effect simultaneousdischarge thereof, notwithstanding thev fact that one Weighing machine may complete its Weighing operation before one or more remaining machines, ofthe series is ready to discharge. In the instance shown, 32 represents diagrammatically a source of current supply which is connected to the main line Wires 33 and 34, one of these wires (the wire 33l in the present instance) extending from one machine to the other or others, and the motors 15 and 15a are connected in parallel with the conductor 33 by the wires 35 and 36, the motors 15 and 15a being connected to the respective mercury cups 20 and 20'cl by the wires 37 and 38, and the contacts `21 and 21a 'upon the respective weigh beams being connected in parallel by the Wires 39 and 40 to a common conductor 41. Any number of machinesmay be connected in the circuit through the medium of the conductors 33 and 41 which are common to all of the machines. One of the weighing machines, preferably the last one in the series, has its door retaining magnet 9 connected to the conductor 41 through the wire 42, the other terminal of this magnetbeing connected by the Wire 43 and the circuit breaking switch 44 to the corresponding door retaining mag# net 9a of the next weighing machine of the series, the other terminal of this magnet 9, being connected through the circuit breaking switch 45 to the conductor 34 which is connected directly to the source of current supply. The magnets or ysolenoids 11 and 11al for the retainingdetents are connected by the wires 46l and 47 directly to the main current supply Wires 33 and 34. During the Weighing operation, the motors of the different weighing machines willoperate until each Weigh hopper has received a properly weighed charge of material and the doors of the weigh hoppers during the weighing operation will be held in closed position, the circuit starting for instance from the main conductor 33 and dividing so that a portion iows through the motor 15 of one machine and the motor 15a of another machine through the wires 35 and 3G respectively. During the weighing operation, those ends of the Weigh beams carryingthe contacts 21 and 21a Will be in depressed position, the motor circuit being thereby completed through the mercury switches and the comswitch 45. When, however, one of the machines has completed its weighing operation, its hopper will descend, bringing the parts into the position shown at the right hand side of Fig. 4.- The descent of the weigh hopper upon receiving a chargevof material causes the contact 21a to break the motor circuit for this particular machine, the wires 38 and 4() which contain the motor and mercury switch for this machine being thereby disconnected. Assuming, however, that the machine at the left hand side of Fig. 4 has been delayed in completing its weighing operation, it will be seen that the weigh hopper of this machine is still in elevated position and the circuit is still maintained through its motor 15 so that the feed of material may continue until the weigh hopper has received a full charge. Although at this moment, the motor circuit for the right hand machine has been broken, this right hand machine is still held from discharging for the reason that the current still flows through the wire 35, the motor 15, the wire 37, the mercury switch for the left hand machine, the wire 39, the commonlconductor 41, the conductor 42,`the magnet 9 for the left hand machine, conductor 43, the magnet 9a for the right hand machine, and through the switch 45 back to the source of supply. The moment, however, that the machine at the left has received a full charge, the settling of the weigh hopper thereof will break the circuit between the contact 21 on the weigh beam thereof and the mercury containing cup which operation will not only stop the motor 15 but will break the only remaining circuit through the hopper door retaining magnets 9 and 9a for all of the machines of the series whereupon a simultaneous discharge of a plurality of machines is effected. The circuits are restablished by the respective machines after dumping their contents in a manner similar to that described in connectionA with the single machine shown in Fig. 1.

The present invention also provides an automatic weighing machine having a double feed, that is, a full-flow feed for supplying the bulk of material to the weigh hopper and a dribble feed for completing the charge whereby the machine may reach a poise and in Fig. 5, I have shown an eX- ample of such a machine which also embodies the mutual control between the feeding devices and the discharging means as nwell as a switch for efectually preventing operation of the moto'r for the feed devices until after the hopper door has opened and vto the main feed chute 48.

closed. In the present instance, the feed mechanism comprises a main feed chute 48 and an auxiliary or dribble feed chute 49, the main feed chute being preferably mounted above the auxiliary or dribble feed chute and has a grid 50 for controlling the flow of material therethrough. These two feed chutes are preferably suspended or supported for independent vibration, pairs of links or their equivalents 51 and 52 being shown for this purpose in the present instance. According to the present invent-ion, a single motor 53 is used and means is provided whereby this moto-r may alternately vibrate the respective chutes whereby a full-flow of material may first take place and after the weigh hopper has descended a predetermined distance, the main flow will be interrupted and the dribble flow will start automatically. In the present instance, the fulllow and dribble feed chutes are provided with bearings 54 and 55 which are preferably rigidly attached to the respective chutes and have opposed seats 56 and 57, the vibratory shaft 58 operated by the motor being capable of shifting from one bearing seat to the other due to a change in elevation of the shaft. In the present instance, the shaft 58 is shifted automatically from one chute to the other by a connection between it and the weigh beam 59, a bearing 60 in the present instance coperating with the shaft 58 and having a knife-edge 61 which rests preferably in a depression 62 formed in that end of the weigh beam which supportsthe weigh hopper. This bearin 60 may be steadied if desired by means o a lateral arm 63 thereon which is pivotally attached to astationary part of the machine frame by the bracket 64V and if desired 'a regulating weight 65 may be mounted to slide adjustably on this arm 63. The pressure of the shaft 58 upon the weigh beam at the point of engagement between the knife-edge 61 and the bearing 62 determines the length'of the dribble feed, and the weight 65 may be used to vary the effective pressure of this vibratory shaft on the weigh beam and thereby insure a dribble of the proper .duration to allow the beam to make its first movement. While the Weigh hopper is in filling position, that end of the weigh beam which supports the hopper will be elevated and the bearing 60 will act upon the vibratory shaft 58 so as to position it within the seat 56 of thecbearing 54 which 'is Yattached The operation of the motor will then produce a full-How of material into the weigh hopper. When the latter, however, has received a proximately a full load it will begin to escend, and t-he edge 61 of the bearing 60 being supported by the weigh beam, this bearing will also descend and will allow the vibratory shaft 58 to leave the seat 56 in the bearing 54 on the main feed chute and to enter the seat 57 in the bearing 5.5 on the lower 01' dribble feed chute, the main feed .being thereb interrupted and the weighing operation eing completed by the dribble feed. Upon the discharge of the contents of the weigh hopper, the vibratory Shaft 58 will return automatically to a position vto again operate the main feed chute.

In Fig. 5, I have also shown a switch for automatically breaking the circuit through the feed operating motor and through the hopper door retaining magnet upon the descent of the weigh beam and for automatithese elements upon the return of the weigh beam to no-load7 position and the closing of the hopper door. In the instance shown.

disk or drum 66 having a suitable number of contacts 67 thereon which are connected in common to the contact 2lb ofthe mercury switch by a conductor 68. A stationary brush 69 is arranged to successively close and open the circuit through the contacts 67 at each step in the movement of the rotary switch, t-he brush 69 being connected to the hopper door retaining magnet 9". The purpose is to rotate the disk 66 one step so as to break the vcircuit for the motor and door retaining magnet when the hopper descends, and to rotate the part 66 to reestablish such circuit Vby the closing of the hopper door. In the present instance, I have shown an example of means for accomplishing this.

result, a bell-crank 70 being connected to the weigh beam by a link 71 and carrying a4 pawl 72 which operates successively upon the teeth of the rotatable disk 66, and a second bell-,crank 73 being connected to the hop er door by alink 74 and carrying a paws) 75 which also acts upon the teeth of the disk 66. During the weighing oper-ation, the disk 66 occupies such a position that the brush 69 will rest upon one of its contacts 67. Upon the descent of the weigh hopper, however, the bell-crank 70 will be turned by reason of its connection to the weigh beam b the link 71, the pawl 72 acting upon the disk .66 to rotate it one step which will carry the disk into such a position that the brush 69 rests between two adjacent con-v tacts thereon. While the disk occupies this position, the motor cannot operate nor can the door be held in open position and con sequently, the feed is'interrupted with certainty and a positive discharge of the contents of the weigh hopper is effected. After the contents of the weigh hopper have been completely discharged, however, the door thereof in swinging into closed position will operate through the link 74, bell-crank 73 and the pawl 75 to rotate the disk 616 al1- ofther step which. will bring one of the contacts 67 on the disk .into engagement with the brush 69 whereupon thecircuit through the operatmg motor for the feed and the magnet for retaini the hopper door in closed position-s again established.,

I claim as m invention: v

1. In a wei hing machine, the combination of a weig hopper provided with a discharge door, an electro-magnetically controlled feed device therefor, electro-magnetic means for retaining said discharge door `in closed position when energized, and an .electric circuit having said electro-mag- A netically controlled feed device and electro- U I 'magnet connect-ed in series therein.

cally restablishing the circuit through tion ofv a movably mounted Weigh hopper f provided with a discharge door, an lelectromagnetically operated feed device therefor` this switch comprlses a rota-table toothed Epreventing opening of the discharge door when energized, and an electric circuit coni nect' feed device and controlled by the movement of 2. In a weighing machine, the combinaan electro-magnetic retaining device for said electro-magnetically operated evice and electro-magnetic retaining the weigh hopper.

3. I n a weighing machine, the combina tion of a feeding device, an electric motor for operating it, a weigh hopper provided with a discharge door, an electro-magnet for yholding said discharge door in closed posif tion when energized, an electric circuit havl ing said motor and electro-magnet connect- =ed in series therein, and means operative upon the completion of the weighing operation for breaking said circuit and thereby interrupting the operation of the feeding device and denergizing said electro-magnet to permit opening movement of said dis- A charge door.

4. In a weighingl machine, the .combinaf tion o f a weigh hopper, a device for feeding material-threto, an electric motor for oper- ,ating said feed device when such motor is running, a load dischargingdevice for the weigh. hopper, an electro-magnetic device operative to hold saidload discharging dev vice in non-discharging position when `energized, and an electric circuit including said motor and electro-magnetic device in series thereln and having means for breaking it .upon the. settling of the weigh hopper for interrupting the feed and causing the discharge of a load from thel Weigh hopper by a denergizing of said electro-magnetic device.

5v. In a lweighing machine, the combina.- tion of an electro-magnetically operated vfeed-ing device, a Weigh hopper provided with a discharge door, electro-magnetic means for holding said discharge door in closedV position when energized, and a controlling circuit having means for breaking it to interrupt the operation of the electromagnetically operated feeding device and for denergizing said electro-ma etic means for the load discharge door, sai circuit also having means for preventing operation of theI feeding device While the discharge door is in load-discharging position.

6. In a Weighing machine, the combination of a Weigh hopper provided With a discharge door, a feeding device for supplying material to the Weigh hopper, an electric motor for operating the feeding device when such. motor is running, electromag netic means operative to hold the discharge door of the Weigh hopper in closed position when energized, and an electric circuit having said motor and electro-magnetic means connected in series therein, said circuit including a circuit controller for opening such circuit automatically upon the completion of a load and also including a switch which automatically opens and cle-ses said circuit upon the opening and closing of the discharge door.

7. In a Weighing machine, the combination of a weigh hopper, an electric motor operated feeding device, a discharging device having electro-magnetic means for holding it in closed position when energized, and a circuit including said electric motor operated feeding device and said electro-magnetic means in series therein and also including a circ-uit controller whereby said devices are mutually controlled.

8. In a Weighing machine, the combination of a Weigh hopper, a feed device hav-A ing electromagnetic means fo-r operating it, a discharge door for the Weigh hopper, an electro-magnet for holding said door in closed position When energized, a circuit connecting the electro-magnetic operating means for the feed device and electro-magnet in series therein, a circuit controller connected in said circuit and operative upon the settling of the Weigh hopper to automatically break such circuit to interrupt the feed and denergize said electro-magnet to permit opening movement of the discharge door, and a switch also connected in said circuit and operative to open and close said circuit upon the opening and closing of the discharge door whereby the feed device and discharge door are mutually controlled in their operations.

9. Ina Weighing machine, the combination of a Weigh hopper, a discharge door therefor, a feed device for supplying material to the Weigh hopper, an electric motor for operating the feed device, an electromagnetic device coperative With a part of said door for retaining the latter in closed position While said device is energized and for releasing said door to permit its opening when said device is denergized, and an electric circuit having the motor for said feed device and said electro-magi'ietic device connected in series therein.

10. In a Weighing machine, the combination of a weigh hopper an electro-magnetically operated feed device, a discharge'door for the Weigh hopper, electro-magnetic meansv for retaining said door in closed position when energized, a controlling circuit including the feed device and electro-magnetic retaining means for the hopper door, and means for interrupting said circuit after the Weigh hopper has received a properly weighed quantity of material whereby the feed is interrupted and the hopper door is permitted to open.

11. In a Weighing machine, the combination of a Weigh hopper having a discharge door, an electro-magnetically o erated feed device, an electro-magnetic device for holding the hopper door in closed position when energized, a circuit including the operating means for the feed device and holding means for the hopper door, anda circuit breaker operative by the settling movement of the Weigh hopper for breaking said circuit and effecting simultaneous interruption in the (feed and opening movement of the hopper oor.

12. In a Weighing machine, the combination of a Weigh hopper, a discharge door thereof, an electro-magnetically operated feed device, electro-magnetic means for holding the hopper door in closed position When energized, a circuit including the operating means for the feed device and the electro-magnetic means for the hopper door, and a circuit controller connected in said circuit and having means for operating it to break said circuit upon the settling of the Weigh hopper and for closing said circuit upon the closing of the hopper door.

13. In a Weighing machine, the combination of a Weigh hopper having a discharge door, electro-magnetic means cooperative With a part of said door to retain the latter in closed position When energized, and a locking detent and cooperating magnet, the latter When energized holding the detent in inoperative position and When denergized permitting the detent 'to lock the door from opening.

14. The combination of a plurality of Weighing machines, each having a feeding device, and a load discharging device, an electric motor for operating the feed device for each weighing machine, electro-magnetic means for controlling the operation of the load discharging device of each machine, an electric circuit having the motors of said machines connected in parallel therein and having the electro-magnetic means for the load discharging devices connected in series therein, and a circuit breaker for the motor of each machine, the circuit breaker being opened When each machine is in discharging condition whereby each machine may individually perform its Weighing operation and the discharge of the machines be simultaneous.

15. In a Weighing machine, feed mechanism including a feed chute for supplying material to a Weigh hopper the chute sloping downwardly toward its discharge end and capable of vibration, and a vibratory Shaft bearing upon said chute and adapted to vibrate the chute while said shaft is in operation.

16. In a weighing machine, feed mechanism including a sloping chute for supplying material to a weigh hopper, said chute being mounted for vibratory movement, a shaft capable of vibration and having a bearing on said vibratory chute, and means for imparting vibratory movement to said shaft while the same revolves.

17. In a weighing machine, feed mechanism including a sloping chute mounted for vibratory movement and capable of causing a flow of material therethrough while vibrating and of interrupting said flow While at rest, and a vibratory shaft coperative with the chute for vibrating the latter.

18. In a weighing machine, the combination of a sloping feed chute mounted forI vibratory movement, and means for vibra-ting said chute to promote the flow of material therethrough embodying a shaft having a bearing on the chute and provided with an eccentric weight or body.4

19. In a Weighing machine, the combination of a sloping feed chute mounted for vibratory movement to promote the How ofy material therethrough, a motor, a vibratory shaft having a bearing on said chute, and a flexible connection between the vibratory shaft and themotor shaft.

20. In a weighing machine, feed mechanism comprising main and dribble chutes, a weigh hopper arranged to receive material from said chutes, and means governed by the settlingvof the weigh hopper for successively vibrating the main and dribble feed chutes.

21. In a weighing machine, feed mechanism comprising main and dribble feed chutes both mounted for independent vibratory movement, a weigh hopper to receive material from both chutes, a vibratory shaft adapted to have a bearing upon one or another of said chutes for vibrating them, and

means controlled by the settling of Vthe weigh hopper for causing said shaft to successively operate upon the main and dribble feed chutes. 22. In a weighing machine, the combination of a weigh hopper, main and dribble feed chutes mounted for independent vibratory movement and having opposed bearings thereon, a vibratory shaft, and means controlled by the movement of the weigh hopper for causing said shaft to operate first upon the main feed chute and subsequently upon the dribble feed chute.

In testimony whereof I have hereunto set my hand in presence of two subscribing witnesses.

. HENRY RICHARDSON. Witnesses:

SAUL E. SCHER, CHARLES SLAFF. 

